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I'm attempting to calculate a specific y-value from a natural cubic spline given an x-value, using the natural spline form from http://mathworld.wolfram.com/CubicSpline.html and coded in Java at http://www.cse.unsw.edu.au/~lambert/splines/natcubic.html.

Unfortunately this spline form takes a t-value on the range from 0->1 for each segment of the spline in order to compute x and y coordinates along each segment. I'd like to input a given x-coordinate and get the corresponding y-coordinate, but i'm not sure how to get a t-value from my x-coordinate. I.e., the coefficients of the spline are stored as y=f(t) and x=f(t), but i'd like to get y=f(x). Short of creating a look-up table, are there any exact solutions to get y=f(x) from this form of spline?

I've tried other implementations that take an x-value and return a y-value (e.g., apache commons math, Flanagan's scientific library), but the spline version from the websites above appear to behave favorably in my application.

Thanks.

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This will be tricky. Parametric splines are freeform and so you are able to have multiple values of your parameter for a given x coordinate which makes your life even harder. It wouldn't do any harm to try posting this at math.stackexchange.com too – mathematician1975 Jul 6 '12 at 22:35
up vote 0 down vote accepted

What you want is not always possible. There can be a single segment of the spline, which passes through two different points for a single value of x.

If you really need it as a function of x, you can solve the cubic equation X(t) = x0 for t (using for example Cardano's formulas) and then substitute the value of t in Y(t).

share|improve this answer
    
Thanks Petar, as the other commentor suggested too, I hadn't thought of the possibility of multiple values of Y given a single X value, as this is a constraint of my problem (x is unidirectional, while y can move up or down with x; eg a time series of growth, where the animal cannot shrink). I'm not sure I follow your suggestion of solving for X(t) -- wouldn't I would need t(X) to calculate the Y(t)? – wcoop Jul 9 '12 at 18:26
    
yeah, that's what I mean - you will get t(X) by solving X(t) = x0 for t. Then Y(X) = Y(t(X)). – Petar Ivanov Jul 10 '12 at 4:11
    
Thanks Petar, i'll give it a try to solve. – wcoop Jul 10 '12 at 13:20

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